%0 Journal Article %T Maximum Dynamic Load Carrying Capacity of a 6UPS-Stewart Platform Manipulator %J Scientia Iranica %I Sharif University of Technology %Z 1026-3098 %A Shokri, M. %A Korayem, M. H. %D 2008 %\ 02/01/2008 %V 15 %N 1 %P - %! Maximum Dynamic Load Carrying Capacity of a 6UPS-Stewart Platform Manipulator %R %X In this paper, a computational method for obtaining the maximum Dynamic Load Carrying Capacity (DLCC) for the 6-UPS Stewart platform manipulator is developed. In this paper, the manipulator is assumed to be non-rigid and the joint actuator torque capacity and accuracy of motion are considered major limiting factors in determining the maximum payload. The maximum dynamic payload carrying capacity of the manipulator is established, while the dynamic model of a typical hydraulic actuator system is used in the joint actuator force capacity for a given trajectory. The exibility of the manipulator is assumed to be eventuated from the manipulator's joints exibility. According to the high complexity of the dynamic equations system of the exible joints parallel manipulators, the e ects of the exibility of the prismatic joints are considered in a static situation to show the considerable e ects of the joint's exibility on the motion accuracy of the 6UPS-Stewart platform. This method can be used for determining the maximum dynamic payload, which acts as an end-e ector for the mechanical design of the manipulator and the optimized selection of the actuator, such as machine tools, based on the hexapod mechanism. %U https://scientiairanica.sharif.edu/article_2973_42ad2933e8951909f36a4b470b072be9.pdf